Antiarrhythmics

Question 1

Cardiac cell membrane electrical activity is determined by which ions?

Answer 1

sodium
potassium
calcium
(chloride)

Question 2

What path does a cardiac electrical impulse follow?

Answer 2

SA node
internodal tracts
AV node
Bundle of His
L and R bundle branches
Purkinje fibers

Question 3

Stellate ganglion blocks knock out what important cardiac feature? What level?

Answer 3

cardiac accelerators
T4

Question 4

Describe “arrhythmia”

Answer 4

electrical impulses/cardiac depolarization that deviates from the normal pathway in site of origin, rate or regularity, or conduction pathway

Question 5

Which ion regulates resting potential?

Answer 5

K+

Question 6

When are cells most permeable to Na+?

Answer 6

at the start of an action potential
(most cells are impermeable to Na+ at rest)

Question 7

During which period of repolarization is an action potential least likely to fire?

Answer 7

absolute refractory period

Question 8

Summarize what happens during Phase 0 of a ventricular action potential:

Answer 8

• threshold potential is reached
• gates open, Na+ enters the cell
• permeability to K+ decreases
• fast depolarization
• very brief

Question 9

Summarize what happens during Phase 1-2 of a ventricular action potential:

Answer 9

• depolarization peaks (+30mV)
• repolarization slowly starts
• Na+ influx stops
• Ca2+ influx starts
• K+ moves OUT
• Cl- moves IN

Question 10

Summarize what happens during Phase 3 of a ventricular action potential:

Answer 10

• fast repolarization
• K+ moves OUT faster than Na+ and Ca2+ move in
• @ end of phase 3: cardiac cells will respond to a stimulus greater than normal intensity

Question 11

Summarize what happens during Phase 4 a ventricular action potential:

Answer 11

• resting potential reaches repolarized state (-90mV)
• Na+ constantly leaking out
• diastole occurs

Question 12

Describe the ion changes during each phase of the ventricular action potential:

Answer 12

Phase 0: Na+ in
Phase 1: Cl- in, K+ out
Phase 2: Ca2+ in
Phase 3: K+ out faster than Na+ and Ca2+ in
Phase 4: Na+ leaking out constantly

Question 13

Is the concentration of Na+ inside cardiac cells higher or lower than the concentration outside the cells?

Answer 13

lower inside (Na+ wants to move in)

Question 14

Is the concentration of K+ inside cardiac cells higher or lower than the concentration outside the cells?

Answer 14

higher inside (K+ wants to move out)

Question 15

Is the concentration of Ca2+ inside cardiac cells higher or lower than the concentration outside the cells?

Answer 15

lower inside (Ca2+ wants to move in)

Question 16

What is the resting membrane potential of a pacemaker/nodal cell?

Answer 16

-60mV

Question 17

Which ion is not involved in nodal APs?

Answer 17

chloride

Question 18

Describe ion movement during Phase 0 of the nodal action potential?

Answer 18

• Ca2+ moves in (L-type channels)

Question 19

Describe ion movement during Phase 1 of the nodal action potential?

Answer 19

trick question - there is no Phase 1

Question 20

Describe ion movement during Phase 2 of the nodal action potential?

Answer 20

trick question - there is no phase 2

Question 21

Describe ion movement during Phase 3 of the nodal action potential?

Answer 21

• K+ moves out

Question 22

Describe ion movement during Phase 4 of the nodal action potential?

Answer 22

• K+ moves out
• Na+ moves in (funny channels)
• Ca2+ moves in (T-type in late stage)

Question 23

What are the 2 (general) causes of arrhythmias?

Answer 23

1) abnormal pacemaker activity
2) abnormal impulse propagation

Question 24

List the 4 major mechanisms for antiarrhythmics:

Answer 24

• sodium channel blockade
• sympathetic autonomic blockade
• calcium channel blockade
• prolongation of effective refractory period

Question 25

What are two causes of bradycardia?

Answer 25

• intra-op hypoxia
• improper ventilation

Question 26

What are some causes of sinus tachycardia?

Answer 26

• CHF
• hypovolemia
• hypoxemia
• sepsis
• anxiety

Question 27

Atrial ectopy is often due to:

Answer 27

poor oxygenation

Question 28

What drug can lead to PSVT?

Answer 28

digitalis toxicity

Question 29

What are some anesthesia-based causes of arrhythmias?

Answer 29

• mechanical stimulation (intubation)
• abnormal ventilation leading to hypercapnia, hypoxia
• anesthetic agents

Question 30

What are the 3 ways heart rate can be manipulated?

Answer 30

1. rate of spontaneous phase 4 depolarization
2. threshold potential
3. resting membrane potential

Question 31

What effect does sympathetic stimulation have on the nodal action potential?

Answer 31

faster diastolic depolarization

Question 32

What effect does parasympathetic stimulation have on nodal action potential?

Answer 32

• lower maximum diastolic potential
• slower diastolic depolarization
• longer action potential duration
  (slide 20)

Question 33

What does the mnemonic No Body Kisses Cats mean?

Answer 33

No - Na+ channel blockers - class 1
Body - beta-blockers - class 2
Kisses - K+ blockers - class 3
Cats - Ca2+ blockers - class 4

Question 34

What phase of the nodal action potential do sodium channel blockers affect?

Answer 34

phase 0

Question 35

Drugs with higher affinity for Na+ channels produce (more/less) QT prolongation

Answer 35

more
C > A > B

Question 36

Describe Class 1A antiarrhythmics:

Answer 36

• lengthen the duration of the AP
• interact, bind, and unbind with Na+ channels
• intermediate affinity for Na+ channels
• produce moderate QT prolongation
• used for WPW

Question 37

Describe Class 1B antiarrhythmics:

Answer 37

• shorten the duration of the nodal AP
• rapidly interact with Na+ channels
• lowest affinity for Na+ channels
• minimal QT prolongation

Question 38

Describe Class 1C antiarrhythmics:

Answer 38

• little to no effect on nodal AP
• slowly interact with Na+ channels
• highest affinity for Na+ channels
• significant QT prolongation

Question 39

What effect do Class 2 antiarrhythmics have on the heart?

Answer 39

reduce adrenergic activity

Question 40

What effect do Class 3 antiarrhythmics have on the heart?

Answer 40

• prolong the effective refractory period by a mechanism other than or in addition to Na+ channel blockade
• K+ channel blockers

Question 41

What effect do Class 4 antiarrhythmics have on the heart?

Answer 41

• slow conduction
• increase refractory period
• CCBs

Question 42

What class does Quinidine belong to and what is its MOA?

Answer 42

• class 1
• binds and blocks activated sodium channels

Question 43

What effect does Quinidine produce?

Answer 43

• depresses pacemaker rate
• depresses conduction and excitability
• lengthens AP duration (prolongs QT)
  *proarrhythmic, dirty drug

Question 44

What class does Procainamide belong to?

Answer 44

Class 1A

Question 45

What arrhythmias is Quinidine used to treat?

Answer 45

• paroxysmal AFib/flutter
• PVCs

Question 46

Which patient populations may experience a prolonged effect of Quinidine?

Answer 46

• hepatic dz
• CHF

Question 47

What is the metabolite of Procainamide and why is it relevant?

Answer 47

N-acetyl procainamide (NAPA)

relevant because both Procainamide and NAPA are eliminated by the kidneys and renal pts need reduced doses

Question 48

What is the most important difference between Quinidine and Procainamide?

Answer 48

Procainamide has less prominent antimuscarinic action

this makes it more difficult to counteract the increased ventricular rate response

Question 49

Procainamide has ganglionic blocking properties. What effect does this have on the body?

Answer 49

• reduced peripheral vascular resistance
• hypotension

Question 50

What is the most problematic side effect of Procainamide?

Answer 50

lupus-like syndrome characterized by arthralgia and arthritis

Question 51

What is the dose/onset/duration/half-life of Procainamide?

Answer 51

• dose: 100mg q5min, max 1000mg
• onset: immediate
• duration: 2.5 hrs
• half-life: 3-4 hours (frequent dosing)

Question 52

What class does Lidocaine belong to and what is its MOA?

Answer 52

• Class 1B (less potent)
• exclusively on inactivated Na channels

Question 53

What is the agent of choice for suppression of intraoperative VT and VF after cardioversion if the pt has good cardiac function?

Answer 53

Lidocaine

Question 54

Lidocaine toxicity risk increases with which drugs?

Answer 54

(drugs that decrease liver BF)
- propranolol
- cimetidine

Question 55

If a large dose of Lidocaine is given to a patient with preexisting HF, what side effect can occur?

Answer 55

hypotension d/t depressed contractility

Question 56

List the most common side effects of Lidocaine:

Answer 56

• parasthesias
• tremor
• nausea
• lightheadedness
• hearing disturbances
• slurred speech
• convulsions

Question 57

What class does Flecainide belong to and what is its MOA?

Answer 57

• Class 1C
• potent Na+ channel blocker (ventricular arrhythmias)
• potent K+ channel blocker (atrial arrhythmias)

Question 58

What medication is known as the “pill in the pocket”?

Answer 58

Flecainide

Question 59

What class does Propafenone belong to?

Answer 59

Class 1C

Question 60

This drug has some structural similarities to Propranolol but has only weak B-blocking activity:

Answer 60

Propafenone

Question 61

Through which route is Propafenone given and what are 2 resulting side effects?

Answer 61

• oral route

SE: metallic taste and constipation

Question 62

What is another name for Class 2 antiarrhythmics? What is their primary effect?

Answer 62

beta blockers

decrease the rate of spontaneous phase 4 depolarization (rate control)

Question 63

Which class 2 antiarrhythmics is most commonly administered in the OR? What dose?

Answer 63

Esmolol

dose: 10mg (30?) IVP q5-10min

Question 64

Hypovolemic patients in the OR should not receive this drug class because it can cause hypotension:

Answer 64

beta blockers

Question 65

List 3 class 2 antiarrhythmics used in anesthesia:

Answer 65

Esmolol
Metoprolol
Propranolol

Question 66

Carvedilol belongs to which drug class? What does it do?

Answer 66

technically in Class 2

• alpha and beta blocker
• blocks: K+, Ca2+, Na+
• prolongs AP depolarization

Question 67

What benefit can prolonged use of Carvedilol have on the heart?

Answer 67

upregulation of Na, K, and Ca channels (beneficial for diseased hearts)

Question 68

What arrhythmia is Digoxin used to treat?

Answer 68

supraventricular arrhythmias

Question 69

Describe the effects of Digoxin:

Answer 69

• decreased activity of SA node
• prolonged conduction through AV node
• increased contractility
• decreased myocardial O2 consumption

Question 70

Synchronized cardioversion performed on a patient with Dig toxicity can result in what? Why?

Answer 70

VFib

releases Ca2+ from the sarcoplasmic reticulum and increases r/f arrhythmias

Question 71

What class does Sotalol belong to? What is its MOA?

Answer 71

• Class 3
• nonselective B-blocker
• prolongs AP duration

Question 72

What arrhythmias is Sotalol used to treat?

Answer 72

SVT & ventricular arrhythmias

Question 73

Which Class 3 antiarrhythmic can result in Torsades de Point? Why?

Answer 73

• Sotalol
• toxicity associated with beta blockade and AP prolongation

Question 74

Ibutilide is a (Class 1/2/3/4) drug used to treat ______.

Answer 74

• Class 3
• acute onset of AFib or AFlutter

Question 75

Verapamil belongs to which class? What is its MOA?

Answer 75

• Class 4
• blocks activated and inactivated Ca2+ channels

Question 76

What are some effects of Verapamil?

Answer 76

• peripheral vasodilation (good)
• AV block (treated with Atropine, B-receptor stimulants, or Ca2+)
• constipation
• nervousness
• peripheral edema

Question 77

Verapamil is extensively metabolized by which system?

Answer 77

liver

Question 78

Which drug is used to treat reentry SVT?

Answer 78

Verapamil

Question 79

Diltiazem is a (Class 1/2/3/4) drug used to produce which effect?

Answer 79

• Class 4
• arterial vasodilation

Question 80

Amiodarone is used to treat which arrhythmias?

Answer 80

supraventricular and ventricular arrhythmias

Question 81

What is the MOA of Amiodarone?

Answer 81

• very effective Na+ channel blocker (low affinity for activated channels; prefers inactivated)
• blocks K+ channels (lengthens AP duration)
• weak CCB
• noncompetitive inhibitor of B-receptors

Question 82

List the intended effects of Amiodarone:

Answer 82

• slows sinus rate and AV conduction
• prolongs QT
• prolongs QRS duration
• increases atrial, AV nodal, ventricular refractory periods
• antianginal effects

Question 83

Describe how Amiodarone produces antianginal effects:

Answer 83

• noncompetitive alpha and beta blocking effects
• Ca+ blocking in coronary arterial smooth muscle

Question 84

What are the side effects of Amiodarone?

Answer 84

• peripheral vascular dilation
• symptomatic bradycardia in pts with sinus or AV node dz
• concentrated in every tissue & organ
• pulmonary fibrosis/inflammation
• reduced drug clearance

Question 85

Amiodarone can reduce the clearance of which drugs?

Answer 85

• Flecainide
• Procainamide
• Quinidine
• Theophylline
• Warfarin

Question 86

What is the MOA of Adenosine?

Answer 86

• enhanced K+ conductance
• inhibition of cAMP-induced Ca2+ influx

Question 87

How does Adenosine reduce HR?

Answer 87

• marked hyperpolarization and suppression of Ca2+-dependent APs
• inhibition of AV nodal conduction
• increased AV nodal refractory period

Question 88

What are some side effects of Adenosine?

Answer 88

• flushing
• SOB, CP (bronchospasm?)
• HA
• hypotension
• nausea
• parasthesias

Question 89

Which arrhythmia is Adenosine used to treat?

Answer 89

ONLY confirmed PSVT

Question 90

What ion channels does Mg influence?

Answer 90

• Na/K ATPase
• Na+ channels
• certain K+ channels
• Ca2+ channels

Question 91

IV potassium influences both the inside and outside of the cardiac cell membrane. What effects does it have?

Answer 91

• resting potential depolarizing action
• membrane potential stabilizing action